Background Isoniazid (INH) plays an important role in the treatment of tuberculosis infection. INH is responsible for early bactericidal activity in the intensive phase and prevention of rifampin resistance in the continuous phase of the treatment. Therefore, INH should be used continuously during the whole treatment course. N-acetyltransferase 2 (NAT2) dominates the metabolism of INH and it has been reported that there are more than twenty NAT2 single nucleotide polymorphisms (SNPs). People can be classified into three NAT2 phenotypes, rapid acetylators (RA), intermediate acetylators (IA), and slow acetylators (SA), based on the number of wild type alleles of NAT2 (SNPs).According to the literature review, SA are under higher risk of drug induced liver injury than RA group. On the other hand, RA are under higher risk of microbiological failure and INH resistance and which is still significant in the multiplicity of an anti-tuberculosis regimen. The occurrence of resistance and adverse drug reaction would influence the completeness of INH in the treatment. Objectives To adapt the theory of individualized dosing of INH into clinical practice by NAT2 polymorphism and 3 hours post-dose (C3hr) concentration of INH was the primary objective. In addition, the safety and clinical outcome issues were evaluated during the follow-up period in this study. Materials and Methods This study was conducted prospectively and patients were referred from physicians. Individualized INH dosing was suggested according to NAT2 genotype, INH serum concentration, and clinical situation. NAT2 genotyping and INH serum concentration were performed by polymerase chain reaction–restriction fragment length polymorphism (PCR-RFLP) and high performance liquid chromatography (HPLC), respectively. There were three parts in data analysis. The first part was INH serum concentration analysis: the correlation between C3hr of INH and NAT2 polymorphism. We used the average C3hr of INH from IA at 5 mg/kg/day as the target C3hr of INH for SA and RA. The second part was INH-related ADR and C3hr of INH analysis. We analyzed the INH-related ADR occurrence rate, severity and follow up in safety assessment. The third part was the interruption rate of INH for any cause before end of treatment as the primary outcome in clinical outcome assessment. Results There were 32 cases (52 samples) for the INH serum concentration analysis. The average C3hr of INH in IA at dose of 5 mg/kg/day was about 2 mcg/mL. When SA and RA took 2.1 mg/kg/day and 6.3 mg/kg/day of INH, respectively, they could reach the target INH serum concentration according to our results. The characteristics of our 39 patients analyzed in the second part were elder with more comorbidities, and more extrapulmonary TB patients. There were 12 INH-related ADR events occurred during the follow-up period. Among them, 10 events were drug induced liver injury (DILI) and 2 events were cutaneous adverse drug reaction. Of 7 events underwent individualized dosing of INH, the ADR relief rate was 100 %. But the ADR relief rate was only 40 % in the conventional dosing group of 5 patients. Mean INH serum concentrations in patients with INH-related ADR and those with no INH-related ADR were 4.2±2.4 mcg/mL and 1.7±0.9 mcg/mL, respectively, in this study (P<0.05). INH interruption rate was 0 % (0/27) in the individualized dosing cases compared to 4.9% (54/1108) interruption in conventional dosing patients at National Taiwan University Hospital due to INH resistance and intolerable ADR before the end of treatment during 2008/1/1 to 2012/4/30. Conclusions 1. According to our results , a good correlation between C3hr of INH and NAT2 polymorphisms was observed. 2. The occurrence of INH-related ADR was observed in patients with higher C3hr of INH compared to those without INH-related ADR. 3. Although patients were older and more complicated in our study, no INH interruption and decreased ADR rate were found in our patients with appropriate dose adjustment of INH Overall, INH can all be continuously used throughout the treatment course by individualized dosing of INH successfully in this study. It improves the safety and completeness of this important drug in the treatment of TB.